Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
15th Edition
ISBN: 9781305289963
Author: Debora M. Katz
Publisher: Cengage Custom Learning
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Chapter 11, Problem 54PQ

Two bumper cars at the county fair are sliding toward one another (Fig. P11.54). Initially, bumper car 1 is traveling to the east at 5.62 m/s, and bumper car 2 is traveling 60.0° south of west at 10.00 m/s. After they collide, bumper car 1 is observed to be traveling to the west with a speed of 3.14 m/s. Friction is negligible between the cars and the ground. a. If the masses of bumper cars 1 and 2 are 596 kg and 625 kg respectively, what is the velocity of bumper car 2 immediately after the collision? b. What is the kinetic energy lost in the collision?

Chapter 11, Problem 54PQ, Two bumper cars at the county fair are sliding toward one another (Fig. P11.54). Initially, bumper

FIGURE P11.54 Problems 54 and 55.

(a)

Expert Solution
Check Mark
To determine

Velocity of bumper car 2 after collision.

Answer to Problem 54PQ

Velocity of bumper car 2 after collision is (3.35i^8.86j^)m/s_.

Explanation of Solution

Positive x axis points to the east and the positive y axis points to the north. Apply law of conservation of momentum. The momentum of cars before collision must be equal to the momentum of cars after collision.

  Ptotxi=Ptotxf                                                                                                              (I)

Here, Ptotxi is the total momentum of system before collision along the x axis and Ptotxf is the total momentum after collision along the x axis.

Elaborate equation (I) in terms of mass and velocity.

  m1v1xim2v2xicosθ=m1v1xf+m2v2xf                                                                      (II)

Here, m1 is the mass of car 1, v1xi is the velocity of car 1 before collision, m2 is the mass of car 2, v2xi is the velocity of car 2 before collision, θ is the angle made by car 2 with x axis, v1xf is the velocity of car 1 after collision and v2xf is the velocity of car 2 after collision.

Apply the same condition of conservation of momentum in the y direction also. Here only car 2 travels in the y direction.

The initial total momentum in the y direction is equal to the final momentum in the y direction.

  Ptotyi=Ptotyf                                                                                                         (III)

Here, Ptotyi is the total momentum of car before collision in y direction and Ptotyf is the total momentum of car after collision in the y direction.

Elaborate equation (III) in terms of mass and velocity.

  m2v2yisinθ=m2v2yf                                                                                    (IV)

Here, m2 is the mass of car 2, v2yi is the velocity of car 2 in the y direction before collision, θ is the angle made by car 2 with x axis and v2yf is the velocity of car 2 after collision along y axis.

Write the equation to find the final velocity of second car.

  vf=v2xfi^+v2yfj^                                                                                                     (V)

Here, vf is the final velocity of car 2 after collision, i^ and j^ are unit vectors along x and y directions.

Conclusion:

Substitute 596kg for m1, 5.62m/s for v1xi, 625kg for m2, 10.00m/s for v2xi, 60° for θ and 3.14m/s for v1xf and simplify for v2xf.

  (596kg)(5.62m/s)(625kg)[10.00cos(60°)m/s]=(596kg)(3.14m/s)+(625kg)v2xfv2xf=3.35m/s

Substitute 625kg for m2, 10.00m/s for v2yi and 60° for θ in equation (IV) and solve for v2yf.

  (625kg)[10.00sin(60°)m/s]=(625kg)v2yfv2yf=8.66m/s

Substitute 3.35m/s for v2xf and 8.86m/s for v2yf in equation (V) to get vf.

  vf=(3.35i^8.86j^)m/s

Therefore, velocity of bumper car 2 after collision is (3.35i^8.86j^)m/s_.

(b)

Expert Solution
Check Mark
To determine

Kinetic energy lost during the collision.

Answer to Problem 54PQ

The kinetic energy lost is 1.08×104J_.

Explanation of Solution

Write the equation to find the resultant final speed of car 2 after collision.

  v2f=v2xf2+v2yf2                                                                                                   (VI)

Here, v2f is the final speed of car 2 after collision.

The kinetic energy lost is equal to the difference between the kinetic energy before collision and after collision.

Write the equation to find the kinetic energy lost.

  Klost=KtotiKtotf=[12m1v1xi2+12m2v2xi2][12m1v1yf2+12m2v2f2]                                            (VII)

Here, Klost is the kinetic energy lost, Ktoti is the total kinetic energy before collision and Ktotf is the kinetic energy after collision.

Conclusion:

Substitute 3.35m/s for v2xf and 8.66m/s for v2yf in equation (VI) to get v2f.

  v2f=(3.35m/s)2+(8.66m/s)2=9.28m/s

Substitute 596kg for m1, 5.62m/s for v1xi, 625kg for m2, 10.00m/s for v2xi, 3.14m/s for v1yf and 9.28m/s for v2f in equation (VII) to get Klost.

Klost=[12(596kg)(5.62m/s)2+12(625kg)(10.0m/s)2][12(596kg)(3.14m/s)2+12(625kg)(9.28m/s)2]=1.08×104kgm2/s2(1J1kgm2/s2)=1.08×104J

Therefore, the kinetic energy lost is 1.08×108J_.

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Chapter 11 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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